1.            Shervedani, R.K., et al., Electrocatalytic behavior of thermally deposited RuO 2 into the microporous Raney nickel electrode (Ni-Zn-P-RuO 2 ) towards the HER. Journal of New Materials for Electrochemical Systems, 2005. 8(3): p. 213-220.

2.            Ghasemi, S., et al., Energy storage capacity investigation of pulsed current formed nano-structured lead dioxide. Electrochimica Acta, 2006. 52(4): p. 1596-1602.

3.            Shamsipur, M., et al., Self-assembled monolayers of a hydroquinone-terminated alkanethiol onto gold surface. Interfacial electrochemistry and Michael-addition reaction with glutathione. Journal of Electroanalytical Chemistry, 2007. 610(2): p. 218-226.

4.            Shervedani, R.K., H.R.Z. Mehrdjardi, and S.H.K. Ghahfarokhi, Electrochemical characterization and application of Ni-RuO2 as a pH sensor for determination of petroleum oil acid number. Journal of the Iranian Chemical Society, 2007. 4(2): p. 221-228.

5.            Kiani, M.A., et al., Inhibitory effect of some amino acids on corrosion of Pb-Ca-Sn alloy in sulfuric acid solution. Corrosion Science, 2008. 50(4): p. 1035-1045.

6.            Mehdinia, A., et al., Electrochemical studies of DNA immobilization onto the azide-terminated monolayers and its interaction with taxol. Analytical Biochemistry, 2008. 375(2): p. 331-338.

7.            Shamsipur, M., et al., Electron transfer behavior through densely packed self-assembled monolayers of a novel heteroaromatic thiol derivative onto the gold surface. Electroanalysis, 2008. 20(5): p. 513-519.

8.            Shamsipur, M., S.H. Kazemi, and M.F. Mousavi, Impedance studies of a nano-structured conducting polymer and its application to the design of reliable scaffolds for impedimetric biosensors. Biosensors and Bioelectronics, 2008. 24(1): p. 104-110.

9.            Ghenaatian, H.R., et al., Electrochemical investigations of self-doped polyaniline nanofibers as a new electroactive material for high performance redox supercapacitor. Synthetic Metals, 2009. 159(17-18): p. 1717-1722.

10.          Mehdinia, A., et al., Electrochemical DNA nano-biosensor for the study of spermidine-DNA interaction. Journal of Pharmaceutical and Biomedical Analysis, 2009. 49(3): p. 587-593.

11.          Shamsipur, M., et al., Electrocatalytic behavior of a carbon paste electrode modified with iron(III)tetracyanophenylporphyrin chloride towards dioxygen reduction. Polish Journal of Chemistry, 2009. 83(6): p. 1173-1183.

12.          Najafpour, M.M., et al., Two new silver(I) complexes with 2,4,6-tris(2-pyridyl)-1,3,5-triazine (tptz): Preparation, characterization, crystal structure and alcohol oxidation activity in the presence of oxone. Polyhedron, 2010. 29(14): p. 2837-2843.

13.          Salamifar, S.E., et al., Cyclic voltammetry and scanning electrochemical microscopy studies of methylene blue immobilized on the self-assembled monolayer of n-dodecanethiol. Electrochimica Acta, 2010. 56(2): p. 896-904.

14.          Alizadeh, V., et al., Electron transfer kinetics of cytochrome c immobilized on a phenolic terminated thiol self assembled monolayer determined by scanning electrochemical microscopy. Electrochimica Acta, 2011. 56(17): p. 6224-6229.

15.          Kazemi, S.H. and K. Khajeh, Electrochemical studies of a novel biosensor based on the CuO nanoparticles coated with horseradish peroxidase to determine the concentration of phenolic compounds. Journal of the Iranian Chemical Society, 2011. 8(SUPPL. 1): p. S152-S160.

16.          Omidyan, R., et al., Spectroscopic study on the interaction of Bacillus subtilis α-amylase with cetyltrimethylammonium bromide. Journal of Luminescence, 2011. 131(6): p. 1229-1233.

17.          Safavi, A., S.H. Kazemi, and H. Kazemi, Electrochemically deposited hybrid nickel-cobalt hexacyanoferrate nanostructures for electrochemical supercapacitors. Electrochimica Acta, 2011. 56(25): p. 9191-9196.

18.          Yousef Elahi, M., et al., DNA immobilization on a polypyrrole nanofiber modified electrode and its interaction with salicylic acid/aspirin. Analytical Biochemistry, 2011. 411(2): p. 176-184.

19.          Najafpour, M.M., et al., New mononuclear manganese(II) complexes with 2,4,6-tris(2-pyridyl)-1,3,5- triazine (tptz) - Selective catalyst in UHP oxidation of sulfides. Polyhedron, 2012. 34(1): p. 202-209.

20.          Pendashteh, A., et al., Synthesis of micro and nanostructured MnO 2 and their comparative study in lithium battery. Journal of the Iranian Chemical Society, 2012. 9(3): p. 389-395.

21.          Shamsipur, M., et al., A novel quantum dot-laccase hybrid nanobiosensor for low level determination of dopamine. Analyst, 2012. 137(23): p. 5553-5559.

22.          Kazemi, S.H., et al., PH-regulated release of dopamine from well-ordered self-assembled monolayers: Electrochemical studies. Materials Science and Engineering C, 2013. 33(8): p. 5095-5099.

23.          Kazemi, S.H. and R. Mohamadi, Electrochemical fabrication of a novel conducting metallopolymer nanoparticles and its electrocatalytic application. Electrochimica Acta, 2013. 109: p. 823-827.

24.          Kazemi, S.H., et al., Electrochemical behaviors of novel electroactive Au nanoparticles protected by self-assembled monolayers. Journal of the Iranian Chemical Society, 2013. 10(2): p. 333-338.

25.          Kazemi, S.H., A. Asghari, and M.A. Kiani, High performance supercapacitors based on the electrodeposited Co 3O4 nanoflakes on electro-etched carbon fibers. Electrochimica Acta, 2014. 138: p. 9-14.

26.          Kazemi, S.H., et al., High-performance supercapacitors based on an ionic liquid-derived nanofibrillated mesoporous carbon. Journal of Solid State Electrochemistry, 2014. 18(9): p. 2419-2424.

27.          Kazemi, S.H., et al., Metal-polyaniline nanofibre composite for supercapacitor applications. Bulletin of Materials Science, 2014. 37(5): p. 1001-1006.

28.          Kazemi, S.H., M.G. Maghami, and M.A. Kiani, Electrodeposited manganese dioxide nanostructures on electro-etched carbon fibers: High performance materials for supercapacitor applications. Materials Research Bulletin, 2014. 60: p. 137-142.

29.          Najafpour, M.M., et al., The role of nano-sized manganese oxides in the oxygen-evolution reactions by manganese complexes: Towards a complete picture. Dalton Transactions, 2014. 43(34): p. 13122-13135.

30.          Safavi, A., H. Kazemi, and S.H. Kazemi, In situ electrodeposition of graphene/nano-palladium on carbon cloth for electrooxidation of methanol in alkaline media. Journal of Power Sources, 2014. 256: p. 354-360.

31.          Safavi, A., S.H. Kazemi, and H. Kazemi, Electrocatalytic behaviors of silver-palladium nanoalloys modified carbon ionic liquid electrode towards hydrogen evolution reaction. Fuel, 2014. 118: p. 156-162.

32.          Sayahi, H., M.A. Kiani, and S.H. Kazemi, Ultrasonic-assisted synthesis of magnetite/carbon nanocomposite for electrochemical supercapacitor. Journal of Solid State Electrochemistry, 2014. 18(2): p. 535-543.

33.          Habib Kazemi, S. and A. Asghari, Electrochemical fabrication of Co(OH)2 nanostructures on electro-etched carbon fibers: Characterization and its supercapacitive behavior. Materials Letters, 2015. 142: p. 156-159.

34.          Kazemi, S.H., B. Hosseinzadeh, and S. Zakavi, Electrochemical fabrication of conducting polymer of Ni-porphyrin as nano-structured electrocatalyst for hydrazine oxidation. Sensors and Actuators, B: Chemical, 2015. 210: p. 343-348.

35.          Kazemi, S.H., et al., Polyaniline-ionic liquid derived ordered mesoporous carbon nanocomposite: Synthesis and supercapacitive behavior. RSC Advances, 2015. 5(84): p. 69032-69041.

36.          Kazemi, S.H., et al., Manganese dioxide nanoparticles incorporated within ionic liquid derived fibrillated mesoporous carbon: Electrode material for high-performance supercapacitors. RSC Advances, 2015. 5(103): p. 84840-84848.

37.          Kazemi, S.H., M. Shanehsaz, and M. Ghaemmaghami, Non-Faradaic electrochemical impedance spectroscopy as a reliable and facile method: Determination of the potassium ion concentration using a guanine rich aptasensor. Materials Science and Engineering C, 2015. 52: p. 151-154.

38.          Manteghi, F., et al., Preparation and application of cobalt oxide nanostructures as electrode materials for electrochemical supercapacitors. RSC Advances, 2015. 5(93): p. 76458-76463.

39.          Sabury, S., S.H. Kazemi, and F. Sharif, Graphene-gold nanoparticle composite: Application as a good scaffold for construction of glucose oxidase biosensor. Materials Science and Engineering C, 2015. 49: p. 297-304.

40.          Kazemi, S.H., et al., Binder-free electrodes of NiMoO4/graphene oxide nanosheets: Synthesis, characterization and supercapacitive behavior. RSC Advances, 2016. 6(112): p. 111170-111181.

41.          Kazemi, S.H., et al., Nano-architectured MnO2 Electrodeposited on the Cu-decorated Nickel Foam substrate as Supercapacitor Electrode with Excellent Areal Capacitance. Electrochimica Acta, 2016. 197: p. 107-116.

42.          Kazemi, S.H., et al., An advanced asymmetric supercapacitor based on a binder-free electrode fabricated from ultrathin CoMoO4 nano-dandelions. RSC Advances, 2016. 6(75): p. 71156-71164.

43.          Kazemi, S.H.K., et al., Porous graphene oxide nanostructure as an excellent scaffold for label-free electrochemical biosensor: Detection of cardiac troponin I. Materials Science and Engineering C, 2016. 69: p. 447-452.

44.          Kazemi, S.H. and K. Malae, Electrodeposited Ni(OH)2 nanostructures on electro-etched carbon fiber paper for highly stable supercapacitors. Journal of the Iranian Chemical Society, 2017. 14(2): p. 419-425.

45.          Shahsavari, H.R., et al., Cyclometalated platinum(II) complexes of 2,2′-bipyridine N-oxide containing a 1,1′-bis(diphenylphosphino)ferrocene ligand: structural, computational and electrochemical studies. Dalton Transactions, 2017. 46(6): p. 2013-2022.

46.          Taleb, M., et al., Ultra-sensitive voltammetric simultaneous determination of dopamine, uric acid and ascorbic acid based on a graphene-coated alumina electrode. Microchimica Acta, 2017. 184(12): p. 4603-4610.

47.          Taleb, M., et al., Graphene-ceramic hybrid nanofibers for ultrasensitive electrochemical determination of ascorbic acid. Microchimica Acta, 2017. 184(3): p. 897-905.

48.          Hosseini Yeganeh, S.E., et al., Electrophoretic deposition of Sn-doped TiO2 nanoparticles and its optical and photocatalytic properties. Journal of Materials Science: Materials in Electronics, 2018. 29(13): p. 10841-10852.

49.          Kazemi, S.H., et al., Facile Synthesis of Mixed Metal-Organic Frameworks: Electrode Materials for Supercapacitors with Excellent Areal Capacitance and Operational Stability. ACS Applied Materials and Interfaces, 2018. 10(27): p. 23063-23073.

50.          Kazemi, S.H., et al., Highly stable asymmetric supercapacitors based on Ni(OH)2 deposited on electro-etched carbon paper. Journal of the Iranian Chemical Society, 2018. 15(9): p. 2117-2122.

51.          Taleb, M., et al., Alumina/graphene/Cu hybrids as highly selective sensor for simultaneous determination of epinephrine, acetaminophen and tryptophan in human urine. Journal of Electroanalytical Chemistry, 2018. 823: p. 184-192.

52.          Bahmani, F., et al., Nanocomposite of copper–molybdenum–oxide nanosheets with graphene as high-performance materials for supercapacitors. Journal of Alloys and Compounds, 2019: p. 500-512.

53.          Kazemi, S.H. and S. Abdollahi Aghdam, High-Performance Asymmetric Supercapacitor Based on Ternary MnO2-Polyaniline-Reduced Graphene Oxide Quantum Dots Nanocomposite Electrode. Journal of Electronic Materials, 2019.

54.          Rahmani, A., et al., Conductive electrospun scaffolds with electrical stimulation for neural differentiation of conjunctiva mesenchymal stem cells. Artificial Organs, 2019.

55.          Shahsavari, H.R., et al., Half-lantern cyclometalated Pt(ii) and Pt(iii) complexes with bridging heterocyclic thiolate ligands: Synthesis, structural characterization, and electrochemical and photophysical properties. New Journal of Chemistry, 2019. 43(20): p. 7716-7724.

56.          Xu, Y., et al., Enhancing potassium-ion battery performance by defect and interlayer engineering. Nanoscale Horizons, 2019. 4(1): p. 202-207.